protected virtual void Equalize() { float pointTemp; if (room.UsesOutdoorTemperature) { pointTemp = room.Temperature; } else { pointTemp = (room.Temperature * room.CellCount + compAir.connectedNet.NetTemperature * compAir.connectedNet.nodes.Count) / (room.CellCount + compAir.connectedNet.nodes.Count); } if (compTempControl != null) { // Trying to remove temperature spiking if (compTempControl.targetTemperature < room.Temperature) { pointTemp = Mathf.Max(pointTemp, compTempControl.targetTemperature) - 1; } else { pointTemp = Mathf.Min(pointTemp, compTempControl.targetTemperature) + 1; } } compAir.EqualizeWithNet(pointTemp, EqualizationRate); if (!room.UsesOutdoorTemperature) { compAir.EqualizeWithRoom(room, pointTemp, EqualizationRate); } }
protected virtual void Equalize() { float pointTemp; if (room.UsesOutdoorTemperature) { pointTemp = room.Temperature; } else { pointTemp = (room.Temperature * room.CellCount + compAir.connectedNet.NetTemperature * compAir.connectedNet.nodes.Count * 5) / (room.CellCount + compAir.connectedNet.nodes.Count * 5); } if (compTempControl != null) { // Trying to remove temperature spiking if (compTempControl.targetTemperature < room.Temperature) { pointTemp = Mathf.Max(pointTemp, compTempControl.targetTemperature) - 1; } else { pointTemp = Mathf.Min(pointTemp, compTempControl.targetTemperature) + 1; } } //#if DEBUG // Log.Message("RedistHeat: DuctComp ----- Device: " + this + ", pointTemp: " + pointTemp); //#endif compAir.EqualizeWithNet(pointTemp, EqualizationRate); if (!room.UsesOutdoorTemperature) { compAir.EqualizeWithRoom(room, pointTemp, EqualizationRate); } }